Abstract: A lower cost meter comprised of an inner housing constructed out of a high permeable material surrounded by an outer housing constructed out of a lower cost, lower permeable material. A port is placed in the outer housing that runs down to the surface of the inner housing to detect the rotation of a rotational component that rotates inside the meter as fluid or gas flows through the meter. A sensor is placed in the port to detect rotation of the rotational component through the lower permeable material inner housing . The lower cost meter can be used for any application for measuring fluid or gas, and may be used in a service station environment for measuring fuel or vapor in vapor recovery applications.

Abstract: A lower cost turbine flow meter comprised of an inner housing constructed out of a high permeable material surrounded by an outer housing constructed out of a lower cost, lower permeable material. A port is placed in the outer housing that runs down to the surface of the inner housing to detect the rotation of turbine rotors that rotate inside the meter as fluid or gas flows through the meter. A pickoff coil is placed in the port to generate a magnetic signal to penetrate through the inner housing wherein the turbine rotor vanes superimpose a pulse signal on the magnetic signal. The lower cost turbine flow meter can be used for any application for measuring fluid or gas, and may be used in a service station environment for measuring fuel or vapor in vapor recovery applications.

Abstract: A lower cost turbine flow meter comprised of an inner housing constructed out of a high permeable material surrounded by an outer housing constructed out of a lower cost, lower permeable material. A port is placed in the outer housing that runs down to the surface of the inner housing to detect the rotation of turbine rotors that rotate inside the meter as fluid or gas flows through the meter. A pickoff coil is placed in the port to generate a magnetic signal to penetrate through the inner housing wherein the turbine rotor vanes superimpose a pulse signal on the magnetic signal. The lower cost turbine flow meter can be used for any application for measuring fluid or gas, and may be used in a service station environment for measuring fuel or vapor in vapor recovery applications.

Abstract: A control system for a fuel dispensing system and a method for simultaneously refueling from at least two fuel dispensers to provide a single transaction total wherein the two fuel dispensers are a master/satellite fuel dispenser pair. A first communication means enables the dispenser control circuitry in the master dispenser to control the dispensing of fuel from the satellite dispenser. A second communication means enables the dispenser control circuitry to receive data regarding the amount of fuel dispensed by the satellite dispenser. A combination means generally associated with the dispenser control circuitry combines the total amount of fuel dispensed from the master/satellite fuel dispenser pair to a single vehicle. A device mounted on the master dispenser displays the total volume and price for the customer as a single transaction.

Abstract: A transport and storage device including a cargo container, a system for positioning at least one removable storage module inside the container, and a system for releasably securing the positioned storage cabinet to the container. A door arrangement is provided for side access openings of the cargo container. The doors are moveable between closed positions and open positions where they provide full access to the access opening. In the open position, the doors are moveable to positions within the cargo container without interfering with the side access openings.

Abstract: A fueling environment having a vent on an underground fuel storage tank may be improved by adding a mass flow meter in conjunction with a vapor recovery membrane in a tank vent. The mass flow meter measures an amount of vapor that passes through the vent and thus allows alarms to be generated if the vapors passing through the vent exceed a predetermined level or an efficiency of the membrane drops below a predetermined threshold. Measurements from the mass flow meter may be provided to a site controller or a remote location for further analysis.

Abstract: A fueling environment having a vent on an underground fuel storage tank may be improved by adding a mass flow meter in conjunction with a vapor recovery membrane in a tank vent. The mass flow meter measures an amount of vapor that passes through the vent and thus allows alarms to be generated if the vapors passing through the vent exceed a predetermined level or an efficiency of the membrane drops below a predetermined threshold. Measurements from the mass flow meter may be provided to a site controller or a remote location for further analysis.

Abstract: A control system for a fuel dispensing system and a method for simultaneously refueling from at least two fuel dispensers to provide a single transaction total wherein the two fuel dispensers are a master/satellite fuel dispenser pair. A first communication means enables the dispenser control circuitry in the master dispenser to control the dispensing of fuel from the satellite dispenser. A second communication means enables the dispenser control circuitry to receive data regarding the amount of fuel dispensed by the satellite dispenser. A combination means generally associated with the dispenser control circuitry combines the total amount of fuel dispensed from the master/satellite fuel dispenser pair to a single vehicle. A device mounted on the master dispenser displays the total volume and price for the customer as a single transaction.

Abstract: A control system for a fuel dispensing system for simultaneously refueling from at least two fuel dispensers to provide a single transaction total wherein the two fuel dispensers are a master/satellite fuel dispenser pair. A first communication device enables the dispenser control circuitry in the master dispenser to control the dispensing of fuel from the satellite dispenser. A second communication device enables the dispenser control circuitry to receive data regarding the amount of fuel dispensed by the satellite dispenser. A combination device generally associated with the dispenser control circuitry combines the total amount of fuel dispensed from the master/satellite fuel dispenser pair to a single vehicle. A device mounted on the master dispenser displays the total volume and price for the customer as a single transaction.

Abstract: A fuel dispenser includes vapor and hydrocarbon concentration sensors positioned in the vapor recovery line to provide accurate feedback relating to the speed and concentration of hydrocarbon laden vapor recovered by a vapor recovery system. The sensors provide diagnostic information about the vapor recovery process as well as insuring that the vapor recovery process is carried out in an efficient manner. Additionally, the sensors may be positioned in an underground storage tank vent apparatus to monitor fugitive emissions from the underground storage tank.

Abstract: A fuel dispenser includes vapor and hydrocarbon concentration sensors positioned in the vapor recovery line to provide accurate feedback relating to the speed and concentration of hydrocarbon laden vapor recovered by a vapor recovery system. The sensors provide diagnostic information about the vapor recovery process as well as insuring that the vapor recovery process is carried out in an efficient manner. Additionally, the sensors may be positioned in an underground storage tank vent apparatus to monitor fugitive emissions from the underground storage tank.

Abstract: A fuel dispenser includes vapor and hydrocarbon concentration sensors positioned in the vapor recovery line to provide accurate feedback relating to the speed and concentration of hydrocarbon laden vapor recovered by a vapor recovery system. The sensors provide diagnostic information about the vapor recovery process as well as insuring that the vapor recovery process is carried out in an efficient manner. Additionally, the sensors may be positioned in an underground storage tank vent apparatus to monitor fugitive emissions from the underground storage tank.

Abstract: A fuel dispenser includes vapor and hydrocarbon concentration sensors positioned in the vapor recovery line to provide accurate feedback relating to the speed and concentration of hydrocarbon laden vapor recovered by a vapor recovery system. The sensors provide diagnostic information about the vapor recovery process as well as insuring that the vapor recovery process is carried out in an efficient manner. Additionally, the sensors may be positioned in an underground storage tank vent apparatus to monitor fugitive emissions from the underground storage tank.

Abstract: A system and method for determining whether a vehicle is equipped with an ORVR system. A processor receives a signal from a fuel pump or the like indicating the fuel being dispensed by the fuel dispenser. The processor is programmed to determine a threshold vapor concentration level based on the signal. Processor further receives a signal from at least one environmental sensor indicating at least one environmental condition to which the fueling operation is exposed. The processor is further programmed to adjust the threshold vapor concentration either up or down dependent upon the environmental condition. Finally, processor receives an actual vapor concentration from a vapor sensor. The processor then compares the actual vapor concentration value with the adjusted threshold vapor concentration value to determine whether the vehicle is equipped with an ORVR system.

Abstract: A fuel dispenser system having a storage tank and a fuel delivery hose extending from the storage tank and terminating at a nozzle. A vapor recovery line extends between the nozzle and the storage tank. The vapor recovery line extends between the nozzle and the storage tank and has a section with a first larger diameter and a second section having a smaller diameter. A vapor pump is operatively connected to the vapor recovery line for moving vapor along said vapor recovery line. A chamber is positioned along the vapor recovery line and includes inlet and outlet ports, and a main sensor chamber. The inlet port connects to the vapor recovery line at a point having the larger diameter. The outlet port connects a point of the smaller diameter. Each of the ports connects to the main sensor chamber where a sensor is positioned for determining the vapor concentration.

Abstract: A transport and storage device including a cargo container, a system for positioning at least one removable storage module inside the container, and a system for releasably securing the positioned storage cabinet to the container.

Abstract: A transport and storage device including a cargo container, a system for positioning at least one removable storage module inside the container, and a system for releasably securing the positioned storage cabinet to the container.

Abstract: A fuel dispenser includes vapor and hydrocarbon concentration sensors positioned in the vapor recovery line to provide accurate feedback relating to the speed and concentration of hydrocarbon laden vapor recovered by a vapor recovery system. The sensors provide diagnostic information about the vapor recovery process as well as insuring that the vapor recovery process is carried out in an efficient manner. Additionally, the sensors may be positioned in an underground storage tank vent apparatus to monitor fugitive emissions from the underground storage tank.

Abstract: A vapor recovery system includes an anemometer positioned in the vapor return line to calculate the volume of returning vapor in the vapor return line. The anemometer is connected to a control system which compares the volume of returning vapor to the volume of fuel being dispensed and adjusts the speed at which vapor is recovered so that the two volumes approximately equal one another. The anemometer may be a Wheatstone bridge arrangement or a pair of thermometers.

Abstract: A mobile modular warehouse structure for the storing and handling of conters of hazardous materials comprising a control point modular storage unit and a plurality of warehouse modular storage units. The modular storage units may be configured in a row to form one embodiment of the mobile modular warehouse structure. In this configuration access between the interiors of adjacent modular storage units is provided by a bellows which is connected to and removable from a bellows support frame in a side wall of each modular storage unit. The modular storage units may also be configured in a stacked arrangement to form an alternate embodiment of the modular mobile safety structure. In this configuration access between the interiors of the stacked modular storage units is provided through an opening between the control point modular storage unit and the warehouse modular storage unit stacked thereon. Stairs located in the control point modular storage unit allow the user to gain access to each unit in the stack.